Peter G. Weidler scite author profile

A novel class of metal organic frameworks (MOFs) has been synthesized from Cu-acetate and dicarboxylic acids using liquid phase epitaxy. The SURMOF-2 isoreticular series exhibits P4 symmetry, for the longest linker a channel-size of 3 × 3 nm2 is obtained, one of the largest values reported for any MOF so far. High quality, ab-initio electronic structure calculations confirm the stability of a regular packing of (Cu++)2- carboxylate paddle-wheel planes with P4 symmetry and reveal, that the SURMOF-2 structures are in fact metastable, with a fairly large activation barrier for the transition to the bulk MOF-2 structures exhibiting a lower, twofold (P2 or C2) symmetry. The theoretical calculations also allow identifying the mechanism for the low-temperature epitaxial growth process and to explain, why a synthesis of this highly interesting, new class of high-symmetry, metastable MOFs is not possible using the conventional solvothermal process.

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Controls on Fe reduction and mineral formation by a subsurface bacterium

Glasauer

Weidler²,

Langley

et al. 2003

Geochimica et Cosmochimica Acta

191

190

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O₂ Activation on Ceria Catalysts—The Importance of Substrate Crystallographic Orientation

et al. 2017

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An atomic-level understanding of dioxygen activation on metal oxides remains one of the major challenges in heterogeneous catalysis. By performing a thorough surface-science study of all three low-index single-crystal surfaces of ceria, probably the most important redox catalysts, we provide a direct spectroscopic characterization of reactive dioxygen species at defect sites on the reduced ceria (110) and (100) surfaces. Surprisingly, neither of these superoxo and peroxo species was found on ceria (111), the thermodynamically most stable surface of this oxide. Applying density functional theory, we could relate these apparently inconsistent findings to a sub-surface diffusion of O vacancies on (111) substrates, but not on the less-closely packed surfaces. These observations resolve a long standing debate concerning the location of O vacancies on ceria surfaces and the activation of O on ceria powders.

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Peter G. Weidler

Intrinsic Proton Affinity of Reactive Surface Groups of Metal (Hydr)oxides: Application to Iron (Hydr)oxides

A novel series of isoreticular metal organic frameworks: realizing metastable structures by liquid phase epitaxy

Controls on Fe reduction and mineral formation by a subsurface bacterium

O₂ Activation on Ceria Catalysts—The Importance of Substrate Crystallographic Orientation

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Peter G. Weidler

Intrinsic Proton Affinity of Reactive Surface Groups of Metal (Hydr)oxides: Application to Iron (Hydr)oxides

A novel series of isoreticular metal organic frameworks: realizing metastable structures by liquid phase epitaxy

Controls on Fe reduction and mineral formation by a subsurface bacterium

O2 Activation on Ceria Catalysts—The Importance of Substrate Crystallographic Orientation

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O₂ Activation on Ceria Catalysts—The Importance of Substrate Crystallographic Orientation